What formula is used to calculate the maximum operating depth (MOD) of a nitrogen-oxygen mix?

Get ready for the SSI Specialty Course Enriched Air Nitrox (SC-EAN) 40% Level 2 Test. Review key concepts with flashcards and multiple choice questions, complete with hints and detailed explanations. Prepare for success!

The maximum operating depth (MOD) formula is critically important for divers using Nitrox mixtures, as it helps to ensure that the partial pressure of oxygen in the breathing gas remains within safe limits. The correct formula for calculating MOD is based on the desired partial pressure of oxygen (PO2).

In this context, MOD is calculated by determining the ratio of the desired partial pressure of oxygen to the fraction of oxygen in the mix (in this case, the fraction corresponding to a 40% oxygen mix, which can be approximated as the remaining percentage of nitrogen in the air). Most commonly, the formula used is MOD = (PO2 desired / Fraction of O2) * 10 to convert the result from atmospheres to feet of seawater (fsw). For a 40% oxygen mixture, the fraction of oxygen is 0.40, and so the formula becomes straightforward for divers to understand and use for safe operational depths.

By using the correct approach, diving professionals can effectively avoid oxygen toxicity, which is crucial for safe diving practices. This understanding is fundamental in guiding divers to choose appropriate dive profiles.

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